Indik Julia H, Donnerstein Richard L, Kern Karl B, Goldman Steven, Gaballa Mohamed A, Berg Robert A
Sarver Heart Center, University of Arizona College of Medicine, 1501 N. Campbell Avenue, Tucson, AZ 85724-5037, USA.
Resuscitation. 2006 Jun;69(3):471-7. doi: 10.1016/j.resuscitation.2005.10.017. Epub 2006 Apr 4.
For prolonged VF, perfusion of the myocardium by pre-shock chest compressions can improve myocardial readiness for successful defibrillation. Characteristics of the VF waveform correlate with the duration of VF when there is no structural heart disease. A "smart" automated external defibrillator (AED) could therefore analyze the VF waveform, determine if VF has been prolonged, and then direct rescuers to either deliver a shock first or chest compressions first. We hypothesized that ischemic heart failure might alter the waveform content of ventricular fibrillation compared with normal hearts, complicating the determination of VF duration.
Myocardial infarction was induced by ligating the proximal left coronary artery. Six weeks later, VF was then induced in 10 rats with myocardial infarction and heart failure (MI-CHF) and 9 control rats. Waveforms were analyzed for total signal amplitude, median frequency, dominant frequency and bandwidth (the frequency interval containing 50% of the total amplitude about the median frequency).
All of these VF waveform characteristics were altered substantially in MI-CHF rats compared to normal controls. In particular, MI-CHF rats had decreased signal amplitude early in VF (p=0.02), a broader bandwidth (p=0.001) and different frequency characteristics over time (p<0.001).
VF waveforms vary over time in a typical manner among rats with and without ischemic heart failure. However, the time-course and waveform characteristics of ventricular fibrillation are altered in rats with myocardial infarctions and ischemic heart failure compared to normal controls. These findings have important implications regarding the use of waveform analyses to determine the duration of VF.
对于长时间室颤,电击前进行胸外按压为心肌灌注可提高心肌对成功除颤的准备状态。在无结构性心脏病时,室颤波形特征与室颤持续时间相关。因此,一台“智能”自动体外除颤器(AED)可以分析室颤波形,确定室颤是否持续时间较长,然后指导救援人员先进行电击或先进行胸外按压。我们推测,与正常心脏相比,缺血性心力衰竭可能会改变室颤的波形内容,使室颤持续时间的判定变得复杂。
通过结扎左冠状动脉近端诱导心肌梗死。六周后,在10只患有心肌梗死和心力衰竭(MI-CHF)的大鼠和9只对照大鼠中诱发室颤。分析波形的总信号幅度、中频、主频和带宽(围绕中频包含总幅度50%的频率区间)。
与正常对照组相比,MI-CHF大鼠的所有这些室颤波形特征均有显著改变。特别是,MI-CHF大鼠在室颤早期信号幅度降低(p=0.02),带宽更宽(p=0.001),且随时间频率特征不同(p<0.001)。
有或无缺血性心力衰竭的大鼠中,室颤波形随时间以典型方式变化。然而,与正常对照组相比,心肌梗死和缺血性心力衰竭大鼠的室颤时间进程和波形特征发生了改变。这些发现对于使用波形分析来确定室颤持续时间具有重要意义。